HPE Apollo 4200 GEN10 P19703-B21 Xeon Silver 4210R 2.4GHz 10 Core Processor

Part Number: P19703-B21

Introduction

The HPE Apollo 4200 GEN10 Processor is a cutting-edge server solution designed to meet the demanding needs of modern data centers. One of its standout features is the Part Number, with the specific model being P19703-B21. This unique identifier plays a crucial role in ensuring compatibility, ease of identification, and streamlined procurement processes.

Compatibility and Ease of Identification

The Part Number, P19703-B21, serves as a distinct identifier for the HPE Apollo 4200 GEN10 Processor. This alphanumeric code allows users to easily recognize and differentiate it from other server models. By having a specific Part Number, users can accurately identify and order the exact product they require, eliminating any confusion or potential mix-ups. Furthermore, the Part Number facilitates compatibility between different components within the data center infrastructure. It ensures that the HPE Apollo 4200 GEN10 Processor is seamlessly integrated into existing systems or alongside other HPE products. This compatibility simplifies the deployment process and reduces the risk of compatibility issues that could hamper performance or functionality.

Streamlined Procurement

Efficient procurement processes are vital for organizations aiming to optimize their IT infrastructure. The Part Number, P19703-B21, plays a pivotal role in streamlining procurement for the HPE Apollo 4200 GEN10 Processor. With a unique Part Number, it becomes easier for procurement teams to search for and specify the exact product they need. This reduces the time spent on manual searches and minimizes the risk of ordering incorrect or incompatible components. Additionally, having a specific Part Number allows organizations to maintain accurate records of their purchases. It enables them to track inventory, manage warranties, and plan for future upgrades or replacements effectively. This level of precision in procurement contributes to overall cost savings and improved operational efficiency.

Conclusion

The Part Number, P19703-B21, is a significant feature of the HPE Apollo 4200 GEN10 Processor. Its role in ensuring compatibility, ease of identification, and streamlined procurement processes cannot be overstated. By providing a unique identifier, this Part Number simplifies integration into existing systems, eliminates potential confusion, and streamlines the procurement process. Overall, the Part Number greatly enhances the user experience and contributes to the overall effectiveness of the HPE Apollo 4200 GEN10 Processor.

Processor Type: Xeon Silver 4210R

Introduction

The HPE Apollo 4200 GEN10 Processor's Processor Type is an essential component that directly influences its performance and capabilities. This server solution is powered by the Xeon Silver 4210R processor, which offers exceptional processing power, advanced features, and enhanced efficiency.

Exceptional Processing Power

The Xeon Silver 4210R processor provides exceptional processing power, making it an ideal choice for demanding workloads and resource-intensive applications. With its 10 cores and 20 threads, it offers significant parallel processing capabilities, allowing for efficient multitasking and improved overall system performance. This processing power translates into faster data processing, reduced latency, and improved response times. Whether it's running complex databases, virtualization environments, or high-performance computing tasks, the Xeon Silver 4210R processor ensures that the HPE Apollo 4200 GEN10 Processor can handle even the most demanding workloads with ease.

Advanced Features

The Xeon Silver 4210R processor incorporates advanced features that further enhance the functionality and versatility of the HPE Apollo 4200 GEN10 Processor. Some notable features include:

Intel® Turbo Boost Technology

This technology dynamically increases the processor's clock speed to deliver additional performance when needed. It intelligently adjusts the frequency based on workload demands, providing a significant boost to application responsiveness and overall system performance.

Intel® Hyper-Threading Technology

With Intel® Hyper-Threading Technology, the Xeon Silver 4210R processor can handle multiple threads per core, effectively doubling the number of virtual cores. This enables better utilization of resources, improved multitasking capabilities, and enhanced overall system efficiency.

Intel® Virtualization Technology

The Xeon Silver 4210R processor supports Intel® Virtualization Technology, which allows for efficient virtualization of resources. This technology enables organizations to consolidate their IT infrastructure, reduce costs, and enhance scalability by running multiple virtual machines on a single physical server.

Efficiency and Energy Savings

In addition to its impressive performance capabilities, the Xeon Silver 4210R processor also prioritizes energy efficiency. With a base clock speed of 2.4GHz and advanced power management features, it delivers optimal performance while minimizing power consumption. The energy-efficient design of the Xeon Silver 4210R processor contributes to reduced operational costs and a smaller environmental footprint. It enables organizations to achieve high-performance computing without sacrificing sustainability or incurring excessive power bills.

Conclusion

The Processor Type, Xeon Silver 4210R, is a critical component of the HPE Apollo 4200 GEN10 Processor. Its exceptional processing power, advanced features, and energy efficiency make it an ideal choice for demanding workloads and resource-intensive applications. Whether it's handling complex databases or virtualization environments, the Xeon Silver 4210R processor ensures optimal performance, enhanced efficiency, and an overall superior user experience with the HPE Apollo 4200 GEN10 Processor.

Clock Speed: 2.4GHz

Introduction

The HPE Apollo 4200 GEN10 Processor's Clock Speed is a crucial specification that directly impacts its overall performance and responsiveness. With a clock speed of 2.4GHz, this server solution offers a balance between power and efficiency, ensuring optimal performance across a wide range of workloads and applications.

Improved Processing Speed

The clock speed of 2.4GHz provides the HPE Apollo 4200 GEN10 Processor with the necessary processing speed to handle demanding workloads efficiently. It determines the number of instructions the processor can execute per second, directly influencing the overall responsiveness and performance of the system. With a higher clock speed, the processor can execute instructions more quickly, resulting in faster data processing, reduced latency, and improved overall system performance. This is especially beneficial for tasks that require real-time data processing, such as financial transactions, scientific simulations, or high-performance computing.

Optimal Balance of Power and Efficiency

The clock speed of 2.4GHz strikes a balance between power and efficiency, ensuring optimal performance while minimizing power consumption. This balance is particularly important in data center environments where energy efficiency is a priority. By operating at an optimal clock speed, the HPE Apollo 4200 GEN10 Processor can deliver significant processing power while maintaining energy efficiency. This not only helps organizations reduce their operational costs but also contributes to environmental sustainability by minimizing power consumption and heat generation.

Overclocking Potential

While the HPE Apollo 4200 GEN10 Processor's clock speed is set at 2.4GHz by default, it also has overclocking potential. Overclocking refers to increasing the clock speed beyond its default value to achieve even higher levels of performance. Overclocking can be beneficial for specific workloads that require additional processing power. However, it should be approached with caution, as it can also increase power consumption and generate more heat. Proper cooling mechanisms and system monitoring are essential to ensure the stability and longevity of the server.

Enhanced Performance for Demanding Workloads

Overclocking the HPE Apollo 4200 GEN10 Processor can provide a significant performance boost for demanding workloads, such as scientific simulations, data analytics, or video rendering. By increasing the clock speed, organizations can achieve faster processing times, reduced wait periods, and improved overall system responsiveness.

Potential Trade-Offs and Risks

Overclocking involves pushing the processor beyond its designed specifications, which may result in increased power consumption and heat generation. This can lead to higher energy costs and potentially impact the lifespan of the processor if not properly managed. Furthermore, overclocking may void warranties or support agreements provided by the manufacturer. It is essential to carefully weigh the potential benefits against the associated risks and ensure that proper cooling solutions and monitoring tools are in place to maintain system stability.

Conclusion

The Clock Speed of 2.4GHz is a vital specification of the HPE Apollo 4200 GEN10 Processor. It delivers improved processing speed, an optimal balance of power and efficiency, and overclocking potential for enhanced performance. Whether operating at its default clock speed or exploring overclocking options, this feature ensures optimal performance, responsiveness, and versatility for a wide range of workloads and applications.

Number Of Cores: 10

Introduction

The Number of Cores is a critical aspect of any processor, directly impacting its multitasking capabilities, parallel processing power, and overall performance. The HPE Apollo 4200 GEN10 Processor features 10 cores, providing significant processing power that enhances productivity and enables efficient handling of complex workloads.

Enhanced Multitasking

With 10 cores, the HPE Apollo 4200 GEN10 Processor offers exceptional multitasking capabilities. Each core functions as an independent processing unit, allowing for simultaneous execution of multiple tasks or threads. This enables users to run resource-intensive applications, perform complex computations, and handle numerous concurrent processes without experiencing significant performance degradation. Enhanced multitasking is particularly beneficial for data centers and organizations that rely on parallel processing to achieve high levels of productivity. With 10 cores, the HPE Apollo 4200 GEN10 Processor ensures that the server can efficiently handle a multitude of tasks, resulting in faster data processing, reduced wait times, and improved overall system responsiveness.

Parallel Processing Power

The 10 cores of the HPE Apollo 4200 GEN10 Processor provide substantial parallel processing power. Parallel processing involves dividing a task into smaller subtasks and executing them simultaneously across multiple cores. This approach significantly accelerates computation time, enabling faster data analysis, simulations, and other compute-intensive operations. Parallel processing is particularly advantageous for applications that can be divided into smaller, independent tasks, such as scientific simulations or big data analytics. The 10 cores of the HPE Apollo 4200 GEN10 Processor allow for efficient utilization of available resources, resulting in improved efficiency and faster time to insights.

Efficient Resource Allocation

The Number of Cores directly affects resource allocation within the server infrastructure. With 10 cores, the HPE Apollo 4200 GEN10 Processor ensures efficient distribution of computing resources across different tasks or applications. By dividing workloads among multiple cores, organizations can prevent bottlenecks and achieve optimal resource utilization. This translates into improved overall system performance and responsiveness. Additionally, efficient resource allocation enhances scalability, enabling organizations to handle increasing workloads without sacrificing performance or incurring excessive costs.

Virtualization Capabilities

The presence of 10 cores also enhances the virtualization capabilities of the HPE Apollo 4200 GEN10 Processor. Virtualization allows organizations to consolidate their IT infrastructure by running multiple virtual machines on a single physical server. With 10 cores, the server can effectively allocate resources to different virtual machines, ensuring optimal performance and minimizing resource contention.

Improved Workload Consolidation

By efficiently allocating resources across multiple cores, the HPE Apollo 4200 GEN10 Processor enables workload consolidation. This consolidation reduces hardware costs, simplifies management, and enhances overall operational efficiency. It allows organizations to maximize the utilization of their server infrastructure while minimizing the physical footprint and associated maintenance costs.

Conclusion

The Number of Cores, 10, is a crucial aspect of the HPE Apollo 4200 GEN10 Processor. Its contribution to enhanced multitasking capabilities, parallel processing power, and efficient resource allocation cannot be understated. Whether it's handling multiple concurrent tasks or executing complex computations, the 10 cores of the HPE Apollo 4200 GEN10 Processor ensure optimal performance, improved efficiency, and an overall superior user experience.